Communication System and Management Method Thereof

1. A communication system, comprising: a radio transceiving layer, comprising one or multiple radio transceiving node combinations, wherein a radio transceiving node in each radio transceiving node combination comprises at least one type of the following: a macro cell radio unit, a Pico cell radio remote unit, and a Pico cell baseband and radio unit; a local computing layer, comprising one or multiple local computing nodes, wherein each local computing node is connected to radio transceiving nodes in one or multiple neighboring radio transceiving node combinations, and configured to execute all communication processing or a first part of communication processing of a first cell corresponding to a first radio transceiving node combination connected to one of the local computing nodes; and a centralized computing layer, comprising one or multiple centralized computing nodes, wherein each centralized computing node is connected to the one or multiple local computing nodes in the local computing layer, and configured to execute a second part of the communication processing of a second cell corresponding to a second radio transceiving node combination connected to the one or multiple local computing nodes if the local computing node executes the first part of the communication processing, wherein the all communication processing comprises the first part of the communication processing and the second part of the communication processing.

2. The communication system according to claim 1 , wherein that each centralized computing node is connected to the one or multiple local computing nodes in the local computing layer comprises one of the following: (a) the centralized computing node is connected to the one or multiple local computing nodes directly; and (b) the centralized computing node is connected to the one or multiple local computing nodes through one or multiple intermediate computing nodes, wherein each intermediate computing node is configured to execute a third part of the communication processing of a third cell corresponding to a third radio transceiving node in a third radio transceiving node combination connected to the local computing node connected to the intermediate computing node if the local computing node executes the first part of the communication processing; wherein the all communication processing further comprises the third part of communication processing.

3. The communication system according to claim 2 , wherein: connections between the macro cell radio unit and the local computing node, between the Pico cell radio remote unit and the local computing unit, between the macro cell radio unit and the centralized computing unit, and between the Pico cell radio remote unit and the centralized computing node are implemented through a class 1 interface, wherein the class 1 interface is configured to transmit baseband data and control state messages; connections between the Pico cell baseband and radio unit and the local computing node, between the Pico cell baseband and radio unit and the centralized computing node, between the local computing node and the centralized computing node, between the local computing node and the intermediate computing node, between the intermediate computing nodes at upper and lower layers, between the intermediate computing node and the centralized computing node, and between the centralized computing nodes are implemented through a class 2 interface, wherein the class 2 interface is configured to transmit the baseband data, data packets, and the control state messages; and the centralized computing node and a core network are connected through a class 3 interface, wherein the class 3 interface is configured to transmit the data packets and the control state messages.

4. The communication system according to claim 2 , wherein the communication processing comprises data processing; the local computing node divides data to implement at least one of the following: (a) differentiating data that needs to be processed by the local computing node and data that does not need to be processed by the local computing nodes, and (b) aggregating data that has undergone the communication processing; the intermediate computing node divides data to differentiate data that needs to be processed by the intermediate computing node and data that does not need to be processed by the intermediate computing node; and the centralized computing node divides data to implement at least one of the following (a) differentiating data that needs to be processed by the centralized computing node and data that does not need to be processed by the centralized computing nodes, and (b) aggregating data that has undergone the communication processing.

5. The communication system according to claim 2 , wherein the communication processing comprises joint interference management processing; the local computing node preferably executes one of the following (a) communication processing of a user equipment without visible interference in a cell corresponding to a radio transceiving node in a radio transceiving node combination connected to the local computing node, and (b) interference processing of a user equipment that suffers only interference from other radio transceiving nodes in a radio transceiving node combination connected to the local computing node; the intermediate computing node executes interference processing of a user equipment in a cell corresponding to a radio transceiving node in a radio transceiving node combination connected to a lower layer intermediate computing node or a local computing node connected to the intermediate computing node; wherein the user equipment suffers interference of a cell corresponding to a radio transceiving node in a radio transceiving node combination connected to the other lower layer intermediate computing nodes or a local computing node connected to the intermediate computing node; and the centralized computing node preferably executes interference processing of a user equipment in a cell corresponding to a radio transceiving node in a radio transceiving node combination connected to a lower layer intermediate computing node or a local computing node connected to the centralized computing node, wherein the user equipment suffers interference of a cell corresponding to a radio transceiving node in a radio transceiving node combination connected to other lower layer intermediate computing nodes or a local computing node connected to the centralized computing node.

6. The communication system according to claim 2 , wherein the communication processing comprises joint resource scheduling processing; the local computing node executes resource scheduling between cells corresponding to a radio transceiving node in a radio transceiving node combination connected to the local computing node; the intermediate computing node executes resource scheduling between cells corresponding to a radio transceiving node in a radio transceiving node combination connected to the intermediate computing node; and the centralized computing node executes resource scheduling between cells corresponding to a radio transceiving node in a radio transceiving node combination connected to the centralized computing node.

7. The communication system according to claim 6 , wherein: resources scheduled by the local computing node, the intermediate computing node, and the centralized computing node are configured differently, or an upper layer computing node executes resource scheduling.

8. The communication system according to claim 2 , wherein a connection between the radio transceiving node in the radio transceiving node combination and the local computing node, between the local computing node and the intermediate computing node, or between the intermediate computing nodes at upper and lower layers is implemented through one of the following: a fiber, a digital subscriber line, a microwave link, and an electrical power cable.

9. The communication system according to claim 8 , wherein a connection medium between nodes is determined based on at least one of the following: a node computing capability, an inter-node distance, an inter-node transmission bandwidth requirement, and an inter-node transmission delay requirement.

10. The communication system according to claim 2 , wherein the communication processing comprises joint computing task scheduling processing; and a computing task is mutually transferred, according to computing loads, computing capabilities, transmission bandwidth, and transmission delays, between the local computing node and the intermediate computing node connected to the local computing node, between intermediate computing nodes connected at upper and lower layers, between the intermediate computing node and the centralized computing node connected to the intermediate computing node, and between interconnected centralized computing nodes.

11. The communication system according to claim 10 , wherein: a computing node schedules the transfer of the computing task based on requests of other computing nodes; or a computing node at the upper layer schedules the transfer of the computing task.

12. The communication system according to claim 2 , wherein the radio transceiving node combination comprises radio transceiving nodes supporting multiple standards and the communication processing comprises at least one of the following (a) processing of multiple communication systems of different standards, and (b) joint processing of multiple communication systems of different standards.

13. The communication system according to claim 1 , wherein: the Pico cell baseband and radio unit is configured to execute a fourth part of communication processing of a fourth cell corresponding to the Pico cell baseband and radio unit if the local computing node executes the first part of the communication processing; or the centralized computing node is configured to transfer, through task scheduling, a fifth part of the communication processing to other centralized computing nodes for execution; wherein the all communication processing further comprises at least one of the fourth part of communication processing and the fifth part of communication processing.

14. The communication system according to claim 1 , wherein the connecting each local computing node to one or multiple neighboring radio transceiving node combinations comprises: determining, according to network configurations, a radio transceiving node in a radio transceiving node combination connected to the local computing node and the number of connected radio transceiving node combinations.

15. The communication system according to claim 1 , wherein the local computing node is connected to a radio transceiving node in a radio transceiving node combination, wherein the radio transceiving node combination comprises at least one of a macro cell radio unit co-sited with the local computing node, a Pico cell radio remote unit in coverage of the macro cell radio unit, and a Pico cell baseband and radio unit.

16. The communication system according to claim 1 , wherein the local computing node is connected to a radio transceiving node in a radio transceiving node combination, wherein the radio transceiving node combination comprises a Pico cell radio remote unit and a Pico cell baseband and radio unit in a specified area, wherein the specified area is determined according to network configurations.

17. The communication system according to claim 16 , wherein the communication processing comprises joint control over a working mode or an on-off state of one of the Pico cell radio remote unit and Pico cell baseband and radio unit in the radio transceiving node combination.

18. A method for managing a communication system, wherein the communication system comprises a radio transceiving layer, a local computing layer, and a centralized computing layer, wherein: the radio transceiving layer comprises one or multiple radio transceiving node combinations, wherein a radio transceiving node in each radio transceiving node combination comprises at least one type of the following: a macro cell radio unit, a Pico cell radio remote unit, and a Pico cell baseband and radio unit; the local computing layer comprises one or multiple local computing nodes, wherein each local computing node is connected to radio transceiving nodes in one or multiple neighboring radio transceiving node combinations; and the centralized computing layer comprises one or multiple centralized computing nodes, wherein each centralized computing node is connected to one or multiple local computing nodes in the local computing layer; and the method comprises: executing, by the local computing node, all communication processing or a first part of communication processing of a first cell corresponding to a first radio transceiving node in a radio transceiving node combination connected to one of the local computing nodes; and executing, by the centralized computing node, a second part of the communication processing of a second cell corresponding to a second radio transceiving node in a radio transceiving node combination connected to one or multiple local computing nodes if the local computing node executes the first part of the communication processing, wherein the all communication processing comprises the first part of the communication processing and the second part of communication processing.

19. The method according to claim 18 , wherein the centralized computing node is connected to the local computing node through one or multiple intermediate computing nodes; and the method further comprises: executing, by the intermediate computing node, a third part of the communication processing of a third cell corresponding to a third radio transceiving node in third a radio transceiving node combination connected to the local computing node connected to the intermediate computing node if the local computing node executes the first part of the communication processing; wherein the all communication processing further comprises the third part of communication processing.

20. The method according to claim 18 , further comprising: executing, by the Pico cell baseband and radio unit, a fourth part of communication processing of a fourth cell corresponding to the Pico cell baseband and radio unit if the local computing node executes the first part of the communication processing; or transferring, by the centralized computing node, through task scheduling, a fifth part of the communication processing to other centralized computing nodes for execution; wherein the all communication processing further comprises at least one of the fourth part of communication processing and the fifth part of communication processing.

21. The method according to claim 18 , wherein the communication processing comprises one or multiple of the following: data processing, joint interference management processing, joint resource scheduling processing, joint computing task scheduling processing, processing of multiple communication systems of different standards, joint processing of multiple communication systems of different standards, and joint control over a working mode or an on-off state of one of the Pico cell radio remote unit and Pico cell baseband and radio unit.